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Main Authors: Røyseth, Victoria, Hurysz, Brianna M, Arsın, Hasan, Vazquez, Julia M, Kaczorowska, Anna-Karina, Fedøy, Anita-Elin, Biernacka, Daria, Dorawa, Sebastian, Kaczorowski, Tadeusz, Stokke, Runar, O'Donoghue, Anthony J, Steen, Ida Helene
Format: Artículo científico
Language:en
Published: Scientific reports 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/40691222/
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author Røyseth, Victoria
Hurysz, Brianna M
Arsın, Hasan
Vazquez, Julia M
Kaczorowska, Anna-Karina
Fedøy, Anita-Elin
Biernacka, Daria
Dorawa, Sebastian
Kaczorowski, Tadeusz
Stokke, Runar
O'Donoghue, Anthony J
Steen, Ida Helene
author_facet Røyseth, Victoria
Hurysz, Brianna M
Arsın, Hasan
Vazquez, Julia M
Kaczorowska, Anna-Karina
Fedøy, Anita-Elin
Biernacka, Daria
Dorawa, Sebastian
Kaczorowski, Tadeusz
Stokke, Runar
O'Donoghue, Anthony J
Steen, Ida Helene
Røyseth, Victoria
Hurysz, Brianna M
Arsın, Hasan
Vazquez, Julia M
Kaczorowska, Anna-Karina
Fedøy, Anita-Elin
Biernacka, Daria
Dorawa, Sebastian
Kaczorowski, Tadeusz
Stokke, Runar
O'Donoghue, Anthony J
Steen, Ida Helene
collection PubMed - marine biology
contents Substrate profiling of marine-derived thermotolerant cysteine protease reveals unique cleavage preferences for industrial applications. Røyseth, Victoria Hurysz, Brianna M Arsın, Hasan Vazquez, Julia M Kaczorowska, Anna-Karina Fedøy, Anita-Elin Biernacka, Daria Dorawa, Sebastian Kaczorowski, Tadeusz Stokke, Runar O'Donoghue, Anthony J Steen, Ida Helene Substrate Specificity Cysteine Proteases Aquatic Organisms Leupeptins Gelatin Due to their industrial importance, new proteases are constantly being sourced from the marine environment. However, their substrate specificities remain insufficiently studied, restricting the evaluation of their potential applications. Here, we applied multiplex substrate profiling by mass spectrometry (MSP-MS) to globupain, a marine thermotolerant clostripain-like protease and show that it has a novel substrate specificity. Globupain is an endopeptidase with a preference for cleavage of substrates on the C-terminal side of norleucine (Nle), Leu, Asn, Arg and Lys. While it can hydrolyze gelatin and collagen, its reaction rate is lower than that of papain, a commercial cysteine protease. The precise knowledge of substrate specificity of globupain led to the discovery that the calpain inhibitors MG101 and leupeptin inactivate globupain activity with IC values of 23.79 and 138.7 nM, respectively. Further investigation of additive effects revealed that globupain activity was stimulated by Triton X-100 and Tween 40 at concentrations of up to 1%. Globupain exhibited tolerance to elevated DTT concentrations and retained most of its activity in the presence of Mg or Mn compared to its preferred cation, Ca. In conclusion, globupain is a novel clostripain-like cysteine protease with a distinct substrate cleavage profile and remarkable stability in the presence of various additives, highlighting its potential for industrial applications.
format Artículo científico
id pubmed_40691222
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Substrate profiling of marine-derived thermotolerant cysteine protease reveals unique cleavage preferences for industrial applications.
Røyseth, Victoria
Hurysz, Brianna M
Arsın, Hasan
Vazquez, Julia M
Kaczorowska, Anna-Karina
Fedøy, Anita-Elin
Biernacka, Daria
Dorawa, Sebastian
Kaczorowski, Tadeusz
Stokke, Runar
O'Donoghue, Anthony J
Steen, Ida Helene
Substrate Specificity
Cysteine Proteases
Aquatic Organisms
Leupeptins
Gelatin
Substrate profiling of marine-derived thermotolerant cysteine protease reveals unique cleavage preferences for industrial applications. Røyseth, Victoria Hurysz, Brianna M Arsın, Hasan Vazquez, Julia M Kaczorowska, Anna-Karina Fedøy, Anita-Elin Biernacka, Daria Dorawa, Sebastian Kaczorowski, Tadeusz Stokke, Runar O'Donoghue, Anthony J Steen, Ida Helene Substrate Specificity Cysteine Proteases Aquatic Organisms Leupeptins Gelatin Due to their industrial importance, new proteases are constantly being sourced from the marine environment. However, their substrate specificities remain insufficiently studied, restricting the evaluation of their potential applications. Here, we applied multiplex substrate profiling by mass spectrometry (MSP-MS) to globupain, a marine thermotolerant clostripain-like protease and show that it has a novel substrate specificity. Globupain is an endopeptidase with a preference for cleavage of substrates on the C-terminal side of norleucine (Nle), Leu, Asn, Arg and Lys. While it can hydrolyze gelatin and collagen, its reaction rate is lower than that of papain, a commercial cysteine protease. The precise knowledge of substrate specificity of globupain led to the discovery that the calpain inhibitors MG101 and leupeptin inactivate globupain activity with IC values of 23.79 and 138.7 nM, respectively. Further investigation of additive effects revealed that globupain activity was stimulated by Triton X-100 and Tween 40 at concentrations of up to 1%. Globupain exhibited tolerance to elevated DTT concentrations and retained most of its activity in the presence of Mg or Mn compared to its preferred cation, Ca. In conclusion, globupain is a novel clostripain-like cysteine protease with a distinct substrate cleavage profile and remarkable stability in the presence of various additives, highlighting its potential for industrial applications.
title Substrate profiling of marine-derived thermotolerant cysteine protease reveals unique cleavage preferences for industrial applications.
topic Substrate Specificity
Cysteine Proteases
Aquatic Organisms
Leupeptins
Gelatin
url https://pubmed.ncbi.nlm.nih.gov/40691222/